Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS
In context of air-conditioning, Singapore is one of the countries with the highest building energy consumption throughout the world. A reduction on energy consumption by air-conditioning unit and improve energy efficiency is needed. Solar Powered Cooling Technologies was introduced as an alternative...
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sg-ntu-dr.10356-603022023-03-04T19:07:47Z Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS Teo, Benjamin How Wei Ooi Kim Tiow School of Mechanical and Aerospace Engineering DRNTU::Engineering In context of air-conditioning, Singapore is one of the countries with the highest building energy consumption throughout the world. A reduction on energy consumption by air-conditioning unit and improve energy efficiency is needed. Solar Powered Cooling Technologies was introduced as an alternative air-conditioning system. A comparison between Solar Thermal Absorption system and Photovoltaic Vapour Compression system is needed to determine which system is suitable to run in Singapore. The Solar Powered Cooling systems were required to generate cooling for a space with a floor area of 460.8m2. Using TRNSYS simulation tool, the necessary components for both systems were connected with the required parameters. From the simulation, Solar Thermal Absorption system generates a cooling load between 88kW to 90kW on a typical day. Photovoltaic Vapour Compression system generates a constant cooling load of 81.57kW with a longer duration. Photovoltaic Vapour Compression system provides a solar fraction of 58.7% while Solar Thermal Absorption system has about 31.8%. About 37.5% of solar energy is loss in the Photovoltaic Vapour Compression system as compared to Solar Thermal Absorption system with a loss of 15%. On a typical week, Solar Thermal system shows more variation in cooling load and solar fraction than the Photovoltaic system. Comparing the systems with the cooling load required for a year, Photovoltaic Vapour Compression system covers 14.2% more than Solar Thermal Absorption system. With the ROI for Photovoltaic Vapour Compression system is lower, the rate of return by the saving cost estimated will be able to hit the installation cost earlier. In conclusion, with the results from TRNSYS simulation and cost analysis, Photovoltaic Vapour Compression system would be feasible as the Solar Powered Cooling system for Singapore. Bachelor of Engineering (Mechanical Engineering) 2014-05-26T06:59:55Z 2014-05-26T06:59:55Z 2014 2014 Final Year Project (FYP) http://hdl.handle.net/10356/60302 en Nanyang Technological University 83 p. application/pdf |
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DRNTU::Engineering Teo, Benjamin How Wei Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| description |
In context of air-conditioning, Singapore is one of the countries with the highest building energy consumption throughout the world. A reduction on energy consumption by air-conditioning unit and improve energy efficiency is needed. Solar Powered Cooling Technologies was introduced as an alternative air-conditioning system. A comparison between Solar Thermal Absorption system and Photovoltaic Vapour Compression system is needed to determine which system is suitable to run in Singapore. The Solar Powered Cooling systems were required to generate cooling for a space with a floor area of 460.8m2. Using TRNSYS simulation tool, the necessary components for both systems were connected with the required parameters. From the simulation, Solar Thermal Absorption system generates a cooling load between 88kW to 90kW on a typical day. Photovoltaic Vapour Compression system generates a constant cooling load of 81.57kW with a longer duration. Photovoltaic Vapour Compression system provides a solar fraction of 58.7% while Solar Thermal Absorption system has about 31.8%. About 37.5% of solar energy is loss in the Photovoltaic Vapour Compression system as compared to Solar Thermal Absorption system with a loss of 15%. On a typical week, Solar Thermal system shows more variation in cooling load and solar fraction than the Photovoltaic system. Comparing the systems with the cooling load required for a year, Photovoltaic Vapour Compression system covers 14.2% more than Solar Thermal Absorption system. With the ROI for Photovoltaic Vapour Compression system is lower, the rate of return by the saving cost estimated will be able to hit the installation cost earlier. In conclusion, with the results from TRNSYS simulation and cost analysis, Photovoltaic Vapour Compression system would be feasible as the Solar Powered Cooling system for Singapore. |
| author2 |
Ooi Kim Tiow |
| author_facet |
Ooi Kim Tiow Teo, Benjamin How Wei |
| format |
Final Year Project |
| author |
Teo, Benjamin How Wei |
| author_sort |
Teo, Benjamin How Wei |
| title |
Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| title_short |
Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| title_full |
Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| title_fullStr |
Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| title_full_unstemmed |
Study of solar powered cooling technologies for Singapore : photovoltaic vs. solar thermal using TRNSYS |
| title_sort |
study of solar powered cooling technologies for singapore : photovoltaic vs. solar thermal using trnsys |
| publishDate |
2014 |
| url |
http://hdl.handle.net/10356/60302 |
| _version_ |
1759858092910051328 |